Keyboard perforator and counter



Nov. l9, 1935 E. E. K LEINSCHMIDT ETAL 2,021,419

'KE'YBOARDTBRFORATQR AND COUNTER I OriginaI FileEi Sept. 4, 1929 6 Shets-Sheet "1 IIIIIIIII IIIIIIII l1 INVENT 's: 1%;?

Nov. 19, 1935.-

f KEYBOARD PERFORATOR AND COUNTER Original Filed ,Sept. 4, 1929 6 Sheets-Sheet 2 FIG.- I

' INVENTORS: E. E. KLE/NSC/IM/DT 1.. M. POTTS AT roRNE v 4 E. E. KLEINSCHMIDT ET AL 2,021,419

Nov. 19, 1935. E. E. KLEINSCHMIDT EI AL 2,021,419

KEYBOARD PERFORATOR AND COUNTER Original Filed Sept. 4, 1929 6 Sheets-Sheet 3 Nov. 19, 1935. E. KLEINSCHMIDT ETAL ,4 KEYBOARD PERFORATOR AND 7C0UNTER Original Filed Sept 4, 1929 6 Sheets-Sheet 4 IIJT- l' INVENTORS E. EMKLEINSCHMIDT BY 1. ports ATI'ORN EY Nov. 19, 19.35." E." KLEINSC-HMIDLI' EI'AL KEYBOARD PERFORATOR AND COUNTER ori inal Filed Sept, 4,

1929 6 Sheets-Sheet 5 FIG.

" INVENIORS? E. KLEINSCHMIDT L. .M. POTT\S BY v v ATTORNEY" Nov. 19, 1935. E. E. KLEINSCHMIDT ETAL 2,021,419

' KEYBOARD BERF'ORATOR ANDCOUNTER Original Filed Sept. 4, 1929 6 Sheets-Sheet 6 ATTORNEY Patented Nova 19, 1935 xnrnosnp PEBFOBATQB AND COUNTER Edward E. Kleinschmidt, Highland Park, and

Louis M. Potts, Evanston, 111.,

assignors to Teletype Corporation, Chicago, 111., a corporation of Delaware Original application September 4,1929, Serial No. 390,352. Divided and this application Septem-' ter- 2, 1932, Serial No. 631,530

as Claims. (01. '164-113) The present invention relates to typesetting systems and apparatus therefor and especially to perforators and counters which may be utilized for preparing a perforated tape for the automatic control of composing machines of the linecasting type.

This application is a division of application Serial No. 390,352, filed September 4, 1929, which eventuated into United States Patent No. 2,000,029, granted May '7, 1935, and relates particularly to improved means for indicating simultaneously the cumulative thicknesses of matrices composing the line-and the iustifiability of the line resulting from theexpansible spaceband's or word spacers introduced in the line.

In the typographical art, composing machines of the linecasting type are provided with character matrices which are of different thicknesses due to the fact that the characters vary in width, and also expansible spacebands. When the character matrices are assembled into a line of predetermined defl ite length the number of matrices necessary to complete' the line varies with the particular matrices used; the length of line,

'- therefore, is dependent not upon the number of characters in the line, but rather upon thicknesses of the characters or matrices making up the line. Consequently, it is necessary during the assembling of the matrices in the assembly elevator or in the preparation of a perforated tape representing a line of composed matter to totalize the various thicknesses of the matrices corresponding to the code perforations made in the tape, so that the operator will be apprised at all times of the length of line remaining as each key is operated and can thus judge of the iustiflability of the line.

Cooperating withthe character matrices and equally determinative of the justiflability of the line are the expansible spacebands or word spacers which are inserted into the composed line at points representative. of word spaces. It is essential, therefore, that the indicator take cognizance of the expansibility of the spacebands as well as the matrices, and that these two functions be performed simultaneously and the net or resultant effect be apparent to. the operator at all times.

It is the primary objectoof the present invention to provide means for integrating or totalizins thev widths of characters and justifying members.

Another object of an indicating mechanism which simultaneously accomplllh fl the two-fold object of totalizing the and index.

' for-the escapements.

totalization of the character I this invention is to provide thicknesses of the matrices determining the cumulative expansibility of the spacebands to indicate to the operator a resultant effect.. A better understanding of the invention may be had from the following description, taken 5 with the accompanying drawings, wherein,

Fig. 1 is a plan view of the perforator and counter incorporating the present invention.

Fig. 2 is a diagram showing the electric circuits and switches for controlling the perforating 10' control magnet. v Fig. 3 is a front elevation of the perforator and counter with portions in section. Fig-4 is a plan view showing the scale member Fig. 5 is a viewshowing the justifying scale member developed.

Figs. 6 and '7 are fragmentary views showing the slotted cover member with the scale member visible through the slot.

Fig. 8 is a sectional view through the scale member and cover member on line 8-0 in H8. 6. Fig. 8a shows a modification of the shutter.

Figs. 9, 10 and 11 are part sectional and part escapement mechanism, the sections being taken along lines 9-9, Iii-l0, ll-ll, respectively of Fig. 1. L

Fig. 12 is a planview of the release mechanism 13 is a sectional view of the roller clutch. taken along line l|ll, i

Fig.

Fig. 14 is a section Fig. 1.

Fig. 15 is Fig. 1.

Fig. 16 is a section through shaft 53 showing one of thecam plates.

Fig. 17 is a section ta Fig. 1..

Fig. 18 is a section Fig. 1.

'Fig. 19 is a section taken Fig. 1.

Fig. 20 is a section on line 20-20, Fig. 1, showing the line spacing ,escapement mechanism. Fig. 21 is a side elevation, partly in section showing the case-shift mechanism.

Figs. 22 and 23 are fragmentary sectional views a section taken along line. li-ii,

en along line "-41,

along line l9--l9,

showing the case-shiftmechanism in a different position. g Briefly, the indicator, which must be understood to be inclusive of the counting mechanism, comprises a scale member composed of a number of similar scales and an index member which function cooperativelyv to indicate constantly the! I taken along line l8 -ll, I0

justifiable condition of the line. Each of the scales is provided with uniform and coincident graduations, and is proportionately marked to indicate the minimum and maximum thicknesses, and degree of expansibi'lity of varying numbers of spacebands. The space key operates to alter the angular position of the scales, and the character keys operate to actuate through a counting mechanism an index member which in the present embodiment comprises a helical-edged shutter member, the helical edge of which functions as the index. Iihe machine comprises a frame I having at its front the usual keyboard comprising keylevers 2 operable by keys 3. Each keylever is pivoted to the frame as shown at 4, Fig. 21, and is provided with a return spring 5 near its pivot for returning the lever to its normal position after it has been operated. Each spring 5 has one of its ends attached to the frame I and its other end connected with a lever 2.

Arranged underneath the keylevers is a plurality of pairs of permutation bars 6 and 6', Fig. 3,

the upper edges of which are provided with notches 6". Each pair of bars 6 and 6' rests upon a pair of rocking members 1 and l which are mounted upon pins 8 and 8' respectively, Figs. 3 and 21. Each rocking member I has an ear 9 extending forward to support a bar 6 and another car, shown in Fig. 21, extending backward to support the companion bar 6'. Similarly, each rocking member I has one ear for supporting a bar 6 and another for supporting the companion bar 6. i

The rocking members 1 and 1' are pivotally connected at Ill-to a horizontal bar II. This bar has at its end, an ear I2 engaging a slot 3 formed in one end of a lever M which is pivoted at l5 and has pivotally connected to its other end l5 a link Hi. It will be understood that there are a plurality of bars I I, one for each pair of permutation bars 6, 6' and that each bar II is operatively connected with a link l6 by a lever M.

The links l6 are slidable in slots (not shown) in armature ll of electromagnet |8. The armature I1 is pivoted at I! and has pivotally mounted on its'end a pawl 20. A spring 2| has one of its ends connected to one end of the pawl at 22 and its other end connected to a fixed point at 23. The other end of the pawl cooperates with a ratchet 24 which is secured to a feed wheel 25.

The teeth of the feed wheel 25 cooperate with the feed perforations in the tape26 for feeding the tape. A plurality of punch pins 21 are arranged for perforating the tape in accordance with the operation of the keys on the keyboard which operation will now be described. It will be understood that a punch to perforate the feed hole is also provided and is invariably operated each time a group of perforations is made.

When a key 3 is depressed its lever 2 will engage the upper edges of combinations of the permuta tion bars 6, 6' and these bars will be depressed. It will be understood that for each key depressed a different combination of permutation bars will be operated.

When a permutation bar 6 is depressed, its lower edge engages with ears 9 of rocker members I, I causing the latter to rock on their pivots 8 producing at the same time an upward movement of the other cars of the rocker members and the consequent upward movement of the companion permutation bar 6'. This upward movement of the bar 6 is permitted by reason of the fact that the upper edge of bar 6 is notched at points where the upper edge of bar 6 is not notched and vice versa. The permutation bars, when moving downward, are guided to move vertically by the guide slots 30 (Fig. 3) which span a collar 8' mounted on the pin 8.

The permutation bars which have been depressed by the key lever 2 rock-their rocker members 'I and 1 to swing their bars II to the right, rotating their levers l4 counterclockwise and their links IE to the left positioning the links beneath the punch pins 21. The magnet |8 will then be energized by mechanism which will be described hereinafter. Energization of the magnet rocks the armature clockwise forcing the links l6 upwardly against the punch pins 21 to perforate the tape. Simultaneously with the perforating operation, the pawl 20 will move up to engage the next tooth on the ratchet 24. When the magnet is deenergized, the spring 2| draws the pawl down rotating the ratchet one step and feeding the tape to position it for the next perforating operation. In this manner the tape is perforated in accordance with the operation of the keylevers 2. The elevated bars 6' will be returned by the next key operated provided the corresponding hole is not to be perforated, as that keylever will engage a high part of bar 6'. If the corresponding hole is to be perforated the bar 6 will remain elevated.

The connections leading from the keylevers 2 to the counting mechanism will now be described.

Each keylever 2 is connected by means of a link 28 with a lever 29 as shown in Fig. 3. The levers 29 .are arranged side by side and run parallel with the keylevers 2. Underneath the levers 29 and running parallel with the permutation bars 6, 6

. is depressed its lower edge engages only one of the bars 3|, the notches 29' providing clearance for the other bars 3|. The arrangement is such that depression of a key to transmit a wide letter such as the letter M will result in the depression of one of the bars 3|, depression of a. key to transmit a letter of medium Width such as the letter S will result in the depression of a second bar 3| and depression of a key to transmit a narrow letter such as the letter I will result in depression of a third bar 3|. 7

Each of these bars 3| rests on the ears of two rocker members 32 and 32' similar to rocker members I and I. For each bar 3| there is provided a bar 33 which has connected to one end a spring 34 for returning the bar 33 to its normal position. Each bar 33 is connected to one end of a lever 35 which is pivoted at 35' and has its other end connected by a link 36 with one arm of a bell crank lever 31 (see Fig. 12). The other arm of each bell crank lever has connected thereto one end of .a spring 38, the other end of which is connected to a fixed point on the frame of the machine. The bell crank levers 31 have slot connections with pins 39 which are secured to escapement pawls 40 (see Figs. 9, 10 and 11) The fourth bar 3| is operated whenever a key such as blank or rubout which do not operate the counter is depressed as will be described later. Operation of this fourth bar moves the associated rocking members 32 and 32', bar 33, lever 35, link 36 and bell crank lever 36' to bring contacts 2 5 into engagement with each other. This closes one of a plurality of parallel circuits (see Fig. 2) to energize magnet l8 to perforate the tape in a spring 88 against the rim of a'drum 88 85' accordance with the key operated, but does not operate any part of the counting mechanism.

' Escapement pawls 48 through their teeth 88' control three friction mechanisms 51, 58 and58 mounted upon a shaft 58 which is iou'rnaled in brackets 54 and 55 mounted on the frame I. The shaft 53 is driven at a suitable speed by a motor 58 through gears 5 and 52. In additionto members 51, 58 and there are two other friction driven mechanisms 58 and 58 mounted on shaft 53. The construction of these other mechanisms 55 and 88 will be described later.

Mechanism 51, see Fig; 9, is composed of a pinion ii, a six-tooth ratchet wheel 82 and a six -tooth cam disc 83, all rigidly connected together and loosely mounted on shaft 53. A collar 84 is secured to the shaft screw 81, the tip of which extends into a slot in shaft 53', so that the collar rotates with the 58 by means of the groups, so that when a shaft but can slide longitudinally along the shaft.

Between the collar 54 and the cam disc 83 there is a friction washer 85, see Fig. 1.

As shown in Fig. 1, there is supported in parallel relation with shaft 53 another shaft 88 journaled in the brackets 54 and BI. The shaft 88 has three gears, 82, 83 and 84 loosely mounted thereon, these gears cooperating with the pinions of the friction driven mechanisms 51,58 and 8, respectively. Thus, as shown in Fig. 9, gear 82 cooperates with pinion 5| of'friction driven mechanism 51. Attached to gear 82 is a cam disc 85 which has three notches 88, each notch carrying a roller 81 which is pressed by in turn is secured to the-shaft a0. Each of the gears. 83 and 84 is provided with a cam disc having notches, a roller, a spring and a drum similar in construction to that described in connection with gear a2.

* noted that the when gear 82 is rotated counterclockwise the cam disc 85 wedges the roller 81 between the case disc and the drum 89 and accordingly the drum 88 and the shaft 88, to which it is secured, will rotate with the gear 82. On the other hand, if the shaft 88 is being operated in the counterducing an idle rotation of the rollers 81, the gear 82 remaining stationary. Thus it will be shaft 88 may be operated by any one of the gears 82, 83 or 84 and that when one ,of these gears is operating the shaft the other two gears remain stationary.

The cam disc 63 is adapted to engage a lug 18 on a-contact spring 1I carrying a contact 12 adapted to cooperate with a contact 13 on acontact carrier 14, the contacting mechanism being suitably insulated and carried on a bracket 15 secured to the adapted to coact with 1118s tively. a

-Mechanisms 58 and 58 are similar in construction to the mechanism 51 except that the number -of teeth in the ratchet wheels 52' and 52" and cam discs 83" and 53" of these mechanisms is notthe same as in the ratchet wheel 82 and cam disc 83 of mechanism 51. Thus, in mechanism 58, the ratchet 68' each have eight 58, the ratchet wheel each have 12 teeth. For the purpose of effecting the counting operation. by the present device' the character matrices comprising a 18' and 18", respecteeth, and in mechanism gear 83 or gear 84 thedrum 88 of gear 82 will rotate with the shaft proframe of the machine. Similarly; cam discs 58 and 83" (Figs. 10 and 11). are

wheel 82' and cam disc;

82'. and cam font of type have been 2 which divided into three-groups, and one of the mechanisms 51, 58 or 53 has been assignedto each group to eflect the counting thereof. It is understood, of course, that the character matrices may be divided into any number of groups, and that the numbenof mechanisms, 51 to 58, will be increased correspondingly; but for the purposes of disclosure of the present embodiment three such groups and mechanisms have been chosen. The character M and other characters of approximately the same width have been assigned to one of the key representing a character in this group has been depressed it will eifect the operation of escapement mechanism 51 to 6 cause the advancement of shutter or indicator I82 15', one space or graduation on the scale. Also, when a key representing -a character in the second group isdepressedthe friction mechanism 58 will be operated which will cause the index or shutter to move three-fourths of a space on the scale. 20-

nessesand exp'ansibility of the spacebands in the so;

line.

It will now be clear that mechanism 51 moves 68 degrees for one step, mechanism 58 moves 45 degrees for one step and mechanism 58 moves 88 degrees for one step. These mechanisms opcrating the shaft 88 throughtheir respective gears 82, 83 and 84 are adapted to rotate the shaft through three diiferent cycles depending upon which one of the mechanisms is operated. Since the thickness of the character being transmitted determines the selection of the mechanism 51, '58 and 58, it will be obvious that the thickness of the character being transmitted will determine the angle of movement of the shaft 88. The shaft 88 is arranged to operate an indicator 45.

- which will now be described.

' which has already except scales ed portion I85 and The indicator, Fig. 4, comprises two main parts, a scale member I88 comprising a series of scales IM and a helical-edged shutter I82. The scale member I88 in the present embodiment is provid- 50.- ed with a chart which is divided into 18 spaces, see Fig. 5. In each space there is drawn along the length thereof a graduated scale which is divided into spaces representing what-are known as keyboard ems, that is, if the key for the char- 65 acter M is'depressed the indicator will advance one space on the scale irrespective of the character or the size of the type to be used. It will be noted that the scales are graduted from the right so that the reading represents the amount of space left in the line rather than the amount been set. It will be noted further. that at the right end of each of the scales, I83 and I84, there is a heavily shad a lightly shaded portion I88. The portion I85 has a width which corresponds to the thickness of the thin end of the spaceband used and the portion I88 has a width corresponding to the difference in thickness between the thin and thick end of the spaceband so that the 7.0; portion I88 represents the amount of justification possible in a line containing one spa'ceband. Scale I81 has'a heavily shaded portion, proportionate to the thickness of the thin end of two spacebands and a lightly shaded portionof a are exactly the same with the 25;-

width equal to the difference between the thick and thin ends of two spacebands, or the amount of justification possible in a line containing two spacebands.

The scale member I00 in the present instance is cylindrical in shape, as shown in Fig. 8, and is located to the rear and adjacent to a slot I08 in a part of the cover I09 of the machine, so that as the scale member is rotated-into the different positions only one of the scales will show through the slot. See Figs. 3 and 8.

It will be noted that the scale member I00 has two similar halves, each half comprising nine scales. The top scale in each half has provision for eight spacebands. The bottom scale in each half provides for no spacebands and is called the zero scale and is'that point to which the scale member is returned for the beginning of a new line. These series of scales are used alternately, thus, after one of the series of scales has been used, the scale member will be rotated so that the zero position of the other series of scales will assume the beginning-of-line position. The advantage of this arrangement of scales will become apparent when it is seen that it is necessary to rotate the chart only one-half revolution or less to the zero position instead of twice that amount, thus saving considerable time and enhancing the speed of operation of the apparatus. As will presently appear, the scale is rotated step-by-step upon the depression of the space key through the medium of the friction driven member 60 (Fig. 20) which comprises .an escapement wheel I50 having 18 teeth, or the same number as the number of scales on the scale member I00. Thus, it

is obvious that each time the space key is operated representative of the insertion of a spaceband in the line of composed matrices a perforation will be made in the tape and at the same time the scale member I00 will be rotated through one angular step.. I

The helical shutter I02 is secured to the shaft 80 so as to rotate therewith and is located between the scale member I00 and the cover I09 so that as the shutter rotates it will gradually cover the scale which happens to be exposed through the slot I08. In the middle of each scale there is a heavy black line and by noting the position where the edge I02 of the helical shutter crosses this line the amount of space left in the line to be filled may be determined. If the end-of-line key (which produces the end-of-line or carriage return perforation in the tape) is depressed before the edge of the shutter reaches the lightly shaded portion of the scale the line will be too short to cast. If the edge of the shutter is in the lightly shaded portion, the line will cast properly, and if the edge has passed beyond the lightly shaded portions into the heavily shaded portion,

- the line will be too long to cast On the left hand end of shutter 02 is a series of graduations I20 cooperating with a series of graduations on the collar I22. By loosening the screw I2I (Fig. 15) the shutter can be rotated" with respect to the collar I22 so that the position of the shutter can be changed with respect to the stopping position of the other parts of the mechanism, and as all parts ,of the indicator are returned to a normal stop position for the beginning of a new line the shutter may be set for any length of line by merely rotating the shutter with respect tothe collar.

,The mechanism for producing a case shift will now be described in connection with Figs. 21, 22 and 23. V

The code bars 29 which determine which one of the bars 3| is operated, or in other words how much the shutter rotates upon the depression of each key, are pivoted in a carrier I30 which in turn is pivoted to the frame at I3I. The carrier 5 I30 has two extensions I32 and I33. Extension 1 I 32 is connected by a link I34 (Fig. 23) to a lever I35 pivoted at I36 to support I31 and connected by a link I38 to the keylever I39 which controls the transmission of the upper case shift signals. 10 When the keylever I 39 (Fig. 23 and Fig. 1) is depressed lever I35 is rocked about its pivot I36 and through link I34, carrier I30 is rotated clockwise .and all of the code bars 29 assume their back position as indicated in Fig. 23. 15

Extension I33 is connected by a link I 40 (Fig. 22) to lever I4I which is pivoted at I42 on bracket I43 and connected by a link I44 to a keylever I45 (Figs. 1 and 22), which cpntrols the transmission of the lower case shift signals. When key 2 I45 is depressed lever MI is locked counterclockwise around its pivot I42 and through link I 40, carrier I30 is rocked to its forward position and the codebars 29 assume their forward position as shown in Fig. 22.

The code bars 29, which are connected to keys in which the upper and lower case characters are of the same width, are arranged to operate the same one of the bars 3| regardless of whether the bars 29 are in the shift or unshift position. 30 This "is accomplished by properly shaping the projections on the code bars 29. But the code bars 29, which are connected to keys in which the key (not shown) in which the lower case char- 49;

acter is of an en width and the upper case character is of an em width.

It will be noted that in Fig. 22 the lower case shift lever I45 is depressed and therefore depression of a bar 29 will result in depression of bar 45- 3IC and movementjof the shutter through a distance corresponding to an en space. In Fig. 23, the upper case shift lever I39 is depressed and therefore depression of a bar-29 will result in depression of bar 3 ID and movement of the shutter 50 through a distance corresponding to an em space.

Links I34 and I40 have elongated holes in their upper ends where they are connected with levers I35 and III, respectively. This of the shift keys to be depressed and to return to normal position without affecting the other shift key. Carrier I30 is held in either position by a jockey roller or other suitable detent (not v shown). 00

Friction driven member 50 (Fig. 20) is composed of an escapement wheel I50 having I3 teeth, or the same number as the number of scales on the scale member I00. It also comprises a gear I 5| which meshes with a gear I52 05.

permits either 55 I92 revolve posit vely with the shaft 53.

2,oa1,419 I I lever I65 is held in its normal position, or that a shown in Fig. 20, lug I12 of stop piece I69 will be out of the path of movement of stopprojection 'I13-carried ongear I52, and scalemember I00 will hence to rotate when permitted bythe escapement mechanism 60.

A spring I14, having one of its ends connected to a fixed point I andits other end connected to the lever I65 at point I16, normally tends to maintain lever I65 in the position shown with its short arm. I11 against a stop I18. Escapement pawl I63 has'a projection I19 which engages the tip of bell crank I80,"pivoted on pin I66 and connected by a link I8I with a keylever I82 which is the spaceband or, justifying keylever operated from space bar. I.82 (Fig. l). Lever I65 is connected by a link I83 with a keylever I84 which is variously known as the end-of-line, carriage '1 return or elevator keylever.

When keylever I82 is depressed, escapement pawl I63 is operated through bell crank I80 and link I8I to release escapement wheel I which will operate one step. Through the gear connec- Z; tions the scale member I00 will be permitted to move a corresponding amount from power furnished through friction clutch 60.

The mechanism 56,- shown in detail in Fig. 1'1, will now be described. It comprises two friction elutches, one within the other. The outer friction clutch comprises the outer sleeve and flange member I90 fixed to the shaft'53 by a screw I9I and cooperating with the splined cam plate I92 which is pressed toward member 190 by the spring I93 abutting against the collar' I94 which is fixed to the shaft 53 by means of a screw I95. The members I90 and I92 thus may move toward each other to compress the friction washers I99 and 200 while both of the members I90 and The inner sleeve and flange member I96 and its companion splined camplate I91 are mounted loose- 'ly upon the sleeve of the member I90. By rea-.

son of the splinedconnection, the two members I96 and I91 may move toward each other to compress the friction washers 20I and 202. The two members I96 and, I91zmust turn together as a clutch unit. Between the members I96 and I91 and sleeved upon the member I 96 is the gear wheel I98. The members I90 and I92 turn con .tinuously with the shaft 53 and through the metion washers I99. and 200 operatev to'turn the I members I96 and I91-when ,these members are not restrained. Themembers I96 and I91 when turning operate through the friction washers 20I ""and 202 to turn the gear wheel I98 when that gear wheelis not restrained.

fIhe spring I93 supplies a pressure to all of the frictionwashers of the member 56 by {reason of the splining of the several parts. The member .I 91 is restrained by the double dog escapement pallet 203 (Fig. 14) which is carried by the rockingshaft I61 operated through lever I and link .183 by the lever I84 of the elevator key. The gear I98 meshes with the gear 204 fixed to the shaft to turn the shutter I02 and is restrained when the stop 205 upon the shutter I02 engages the tip. 206 of the arm 201which also is carried by the rocking shaft I61.

' The function of the-elevator key is torestore dog -203- releases the plate the shutter m and the 80.1.. member ion to their respective 'normal positions and also to control the punching of code perforations in the tape. When the elevator key is depressed it operates arm I65 and rocks the shaft I61 thereby operat- 5 ing am 201 and double dog 203. pog 203 removes the restraint from clutch members I96 and I91 which then are driven by theshaft 53 and drive gear wheels I98 and 204 to tur'nshaft 80 until stop 205 engages the lug 206 of'arm 201. 10.. The am. 201 stops the'shutter and restrains the of dog 203 engages the notch I91 in plate I91, 20;;

when, again, all parts of the clutch stop except I and I92. The shutter has been turned through its unused angle to its normal position of rest and is in readiness for thework of the next line.

While the elevator key has been depressed the lever I65. has.withdrawn-the dog I63 from the wheel I50 and has moved the stop I12 into the path of the stop I13. The clutch mechanism 60 I nowoperates to drive the scale member I00 until 33,-; the stop I13 engages the stop I12. Upon release of the elevator key, the stops I12 and I13 are dis-'- engaged and the pallet I63 engages the wheel I50 to restrain the scale member I00 whichnow is in .its normal position in readiness for the work of 35.

the next line.

Friction discs 20I and 202 are smaller than friction discs I99 and 200 so that when the shutter reaches its initial position, a. slip will occur at discs 20I and 202 and not at discs I99'and'200 40.. thus permitting the disc I91 and associated parts to complete their operation. The doublefriction discs also perform another function. When the shutter is moving forward slippage occurs at the small diameter discs 20 I and 202 while thew-'- disc I91 and associated parts remain in their normal position. This action also provides a braking effect which prevents overthrow due-to the inertia of the moving parts. 0

. closed by a member in the selecting devices.

When mechanism 56 is operated, the points 2I I are closed. When mechanism 51 is operated the points 2I2 are closed. When mechanism 58 is operated the points 2I3 are closed. When mech- 6'0 anism.59 is operated the points 2 are closed.

, When the spacing mechanism 60 is operated the points 2I6 are closed.

A modified form of shutter is shown in Fig. 8a. This shutter is in the form of a transparent cylc5:

'inder 93A, with a helicalline 93B drawn upon it.

The reading is made at the intersection of the line of the scale and the line 933 of the shutter.

The operation of the entire apparatus will now be described. 7 Depression of a character key 3 operates the associated keylever 2 to engage and depress a combination of the permutation bars, 6 and 6'.

- The depressed bars 6 and 6' rock member] and 1' to move bars II and the latter bars rock levers-"w;

-- I39 is depressed. This I I to shift the corresponding links I3 into position beneath punch pins 21.

In addition to depressing the permutation bars 9 and 6 the keylever 2 simultaneously operates a lever 29 through the associated link 28. Lever 29'depresses one of the bars 3|, the selection of the barv 3| depending upon the thickness of the matrix for which a code combination is to be transmitted, and through rockers 32 and 32, a bar 33 is operated. This bar operates through a lever 35, link 36 and bell crank 31 the corresponding escapement pawl 40. The pawl releases its friction driven mechanism (51, 58 or 59) which rotates one step, operating through its associated gear mechanism, the shaft 80 and shutter I02. During the movement of the friction driven member, a contact 12, 13 is closed for energizing the magnet I8 to the tape one step.

As various character k ys are depressed in succession, the shutter I02 is rotated through varying angles, the angle of rotation depending upon the thickness of the matrix, for which a code combination is to be transmitted. 'As the shutter rotates, its edge I02 moves to the right along the slot I08 and the scale exposed through the slot is gradually covered up. At any point during the operation of the keys, if the operator perforate the tape and to feed wishes to determine how much space is left in the. line being composed, he has only to observe the point where the edge I02 of the shutter I02 intersects the heavy horizontal line ofjthe scale.

When the operator depresses the bar I82 the lever I82 is depressed operating pawl I53 through bell crank I80 and link I8I to release escapement wheel I50 which will operate one step. Gear I5I rigidly connected to wheel I50 will rotate gear I52 to move the scale member I00 carrying the scales IN a suilicient amount to bring the next scale into position opposite the slot I08-in the cover member I09. At the same time contacts 2I6 are closed and the space perforation is made in the tape and the tape is advanced one step. Thus, every time the bar I82 is depressed, the scale member will be rotated one angular step to bring the succeedingscale into position opposite the slot, the tape is perforated and advanced one step.

To operate the case shift mechanism, keylever operates link I38 to rock lever I35 about its pivot I36 and raise link I34 thereby rocking member I30 clockwise. Levers 29 are thus moved rearwardly and depression of a character key will result in the operation by levers 29 of different bars 3I than would be operated if the case shift mechanism had not been operated. Thus, when the bars 29 are in the unshift position, as shownin Fig. 22; depression of a character key will result in operation of bar 3ICandmovement of the shutter through a distance corresponding to an en space. On the other hand, when the bars 29 are in the shift position, as shown in Fig. 23, depression of the same character key will result in operation of bar 3ID and movement of the shutter through a distance corresponding to an em space. Depression of keylever I39 also sets the permutation bars 9 and 8' for the shift combination, closes contacts 2I5 and causes the shift perforation to be.

made in the tape, but no operation of the counting mechanism takes place.

The unshift key performs similar operations.

To begin a new line, the elevator or justification key is depressed. This operates arm I85 and rocks the shaft I91 thereby operating am 201 I12 and I13 dog I53 again the scale member I 00, which is then in its normal theshutter and restrains the gear wheel I98. The clutch parts I96 and I91 continue to turn until the attached plate I91 engages the upper tooth 203' of the double dog 203 after which all parts are restrained until the release of the elevator key.

The elevator or justification key also sets the bars 8, 9 in the proper permutation to perforate the elevator signal hole in the tape and closes contacts 2I5 to energize the perforating magnet to make the perforations and advance the tape. The function of the perforation thus produced by the operation linecasting machine the movement of the assemelevator of said machine to the casting position where automatic justification of the line takes place Just prior to the casting operation.

Upon the release of the elevator key, the arm 201 releases the shutter and dog 203 releases the plate I91 and all parts of the double clutch tum until the lower tooth 203" of dog 203 engages the notch I91 in plate I91, when, again, all parts of the clutch stop except I90 and I92. The shutter has been turned through its unused angle to its normal position of rest and is in readiness for the work of the next line.

When the elevator key is depressed, the lever I65 withdraws the dog I 63 entirely from operative relation with the wheel I50 and moves the stop I12 into the path of the stop I13. The clutch member 50 then operates to drive the scale member I00 until the stop I 13 engages the stop I12. When the elevator key is released the stops are disengaged and the pallet or engages the wheel I50 to restrain position in readiness for line.

Although the present invention has been disclosed and described with reference to a linecasting machine it is, of course, understood that the invention is capable of embodiment in many and widely varied forms other than that specifically disclosed without departing from the spirit and scope of the present invention.

What is claimed is: 1. In a keyboard device having a plurality of character keys, a chart, an indicating member for cooperating with said chart, a series of unidirectional friction driven members, and means for selecting one 'of said members in accordance with thekey depressed, to move the indicating memher in a single direction with respect to the chart, each friction driven member being arranged to move the indicating member a different amount. 2. In combination with a keyboard comprising a plurality of keys, 9. scale, an index member, means under the control of a plurality of keys to move the index member with respect to said scale to indicate a quantity corresponding to the keys depressed in successio and key initiated means to move automatically the index member invariably in the same direction to give an indication corresponding to the beginning of the operation of a new series of keys.

3. In a keyboard device for preparing control the work of the next 9 strips for controlling composing machines which 80 until step 205 engages the lug 205 of arm 201. This stops of the elevator or justification key is to initiate in, the automatically controlled I use matrices of predetermined thicknesses, keyall ; said keys.

; keylevers operated, and means levers corresponding to the matrices, a constantly rotating shaft, clutch mechanism controlled by said keylevers and driven by said shaft, and means variably driven by said clutch mechanism for totalizing the thickness of the matrices corresponding to the keys operated in response to the successive operation of said keys.

4. 11: a keyboard device for preparing control strips for controlling composing machines which use matrices of different predetermined thick-' nesses, keylevers correspondingto the matrices, a constantly rotating shaft, a plurality of clutch mechanisms, one individual to each thickness of matrix controlled by said keylevers and driven by said shaft, and means variably driven by said clutch mechanisms --for totalizing the thickness -of the matrices corresponding to the keys operated in response to the successive operation of 5.-In a keyboard device for preparing controls'trips for controlling composing machines which use .matrices of fixed thicknesses'and justifying matrices of adjustable thickness, keylevers corresponding to the matrices of fixed thicknesses, a means responsive to the operation for indicating the totalized thickness of thematrices corresponding to the keylevers operated, and means comprising a changing scale having predetermined data of varying value indicated thereon effective upon each operation of the justifying key for indicating the cumulative expansibility of the justifying matrices corresponding to the number of times the justifying key has been operated in a given series,

said last mentioned means cooperative with said first mentioned means toindicate the justiflability ofaline.

6. In a keyboard device for preparing control strips for'controlling composing machines which use matrices of fixedthickne'sses and justifying matrices of adjustable thickness, keylevers corresponding to both kinds of matrices, and a single indicator comprising a helical index member and a cylindrical chart, said index memb'er responsive to the operation of certain of said keys for indicating the totalized thickness of the matrices corresponding to the keylevers operated and said chart responsive to the operation of another of said keylevers to indicate the totalized, minimum and maximum thicknesses of justifying matrices corresponding to the number of times said another of operated in a given series.

'7. In a keyboard device for. preparing control strips for controlling composing machines which use matrices offixed thicknesses and justifying matrices of adjustable thickness, keylevers corresponding to both kinds of matrices, a constantly rotating shaft, clutch mechanism driven bysaid shaft and controlled by said keys, means variably driven by said clutch mechanism responsive to the operation of said keys fonindicating the totalized thicknessof the for indicating the totalized minimum and maximum thicknesses of justifying matrices corresponding to the number of times the justifying key'has been operated in a given series. I

8. In a device for preparing a controlstrip suitable for the control of composing machines having automatic justification within a certain range, a plurality of keys, an indicator provided with a movable scale to indicate continuously the minimum and maximum limits of the justifying setting up a given length of line,

trolled by said keys for controlling said indicating mechanism.

said keylevers has been and means for selectingone matrices corresponding to the range, an index member cooperative with said scale to indicate the remaining, space for a given length of line that is to be set up by the operation of said keys, and means controlledby said keys for controlling said indicator.

9. In a keyboard device for preparing a'contro strip suitable for the control of composing ma chines having automatic justification within a certain range, a plurality of keys, indicating mechanism comprising a movable chart adapted to indicate continuously the entire justifying range, an index member adapted to'indicate the remaining space in the line of composed matter corresponding to a series of keys actuated when and means con- P 10. In akeybcard device for preparing a control strip for the control oftype composing machines comprising a plurality of character keys 2o and a space key, a cylinder carrying a series of' scales, a tubular index member concentric with the cylinder, means controlled by, said space key to rotate said cylinder to display a new scale, and

means controlled by said characterkeysto move said index member variably on said scale in accordance with: the keys depressed.

' 11. In a keyboard device having a plurality of character keys and a justifying key, a chart, an

indicating member cooperating with said chart,

means controlled by said character keys tomove said indicating member variably, and means controlled by said justifying key to move said chart.' 12. In a keyboard device having a plurality 'of character keys and a justifying key, indicating member'cooperating withsaid chart. means controlled'by said character keys to move said indicating member, means controlled by said, justifying key to move said chart, and means for moving said chart and said indicating member 40 in the same direction to a point corresponding to the beginning of a new line.

13. In a keyboard device having a plurality of character keys and a justifying key, a chart mem? ber, an indicating member chart member, means controlled by' said character keys to move one of said members, means controlled by said justifying key to move the other of said members in the same direction, and means for moving said chart and said indicating mem- 5i) her in the same direction to a point corresponding to the beginning of a new line. a

14. Ina keyboard device having a plurality of character keys, a chart, an indicating member cooperating with said chart, a plurality of constantly driven clutch members, each arranged, to move said indicating membera different amount, of said members in accordance. with the key actuated to move said indicating means with respect to the chart.

15. In a keyboard device having a plurality of character keys, indicating means, a plurality of clutches, each arranged to adjust said indicating means a different amount, and means controlled by said keys for selectively operating said clutches 05 in accordance with the keys actuated to cause said driven members to variably adjust said iii-1 dicating means. 16. In a keyboard device having a plurality of character keys, indicating means, a plurality of clutches each comprising a constantly driven driving member and a driven member, said driven members being arranged to adjust said indicating means different amounts, and means controlled by said keys for selectively operating said clutches 1- a chart, an 35.

cooperating with said 45- tion to a point on said scale beginning of a line.

a plurality of keys for controlling the initiation of operation of saidmeans according to the keys actuated.

18. In combinationwith a keyboard having a plurality of keys, indicating mechanism, a motor,

a plurality of clutches driven by said motor, means associated with one of said clutches to advance the indication of said mechanism when said keys are actuated, and means. associated with another '01 said clutches to move said mechanism to an 7 initial position controlled by one of the keys of said keyboard.

19. In combination with a keyboard compris ing a plurality of keys, a scale, an index. adjacent to the scale, means controlled by said keys to move said index, an elevator key to be operated after the operation of a series of keys corresponding to a line of characters, and means controlled by said' elevator key including a constantly driven clutch to move said index to a point on said scale corresponding to the beginning of a line.

20. In a keyboard device for preparing a control strip for the control of typesetting machines comprisinga plurality of character keys, a scale, an index adjacent said scale, means controlled by said keys to move said index in a single direction with respect to said scale, an elevator key to be operated after the operation of a series of keys corresponding to a line of characters, and means controlled by said elevator key to move automatically said index invariably in said direccorresponding to the 21. In combination, a plurality of character keys, a scale, an index adjacent said scale, constantly driveneclutch mechanism controlled by said keys to move said index, an elevator key to be operated after the operation of a series of keys corresponding to a line of characters, and means controlled by said elevator key including constantly driven clutch mechanism to move said index to a point on'said scale corresponding to the beginning 01' a line.

22. In a keyboard, a scale member, an index member, a series of keys corresponding to a series of characters, a single justifying key, means to move one of said members in a single direction for each operation of a character key, and means controlled by the justifying key to move-the other of said members in'the same direction, the combined effect of said movements being to indicate the justiflability of a line.

23. In a keyboard device, a constantly rotating shaft, a. plurality of unit wheels mounted on said shaft, and a single'indicating mechanism'common to said plurality of unit wheels, said unit 24. In a keyboard device, a constantly rotating I shaft, a plurality of unit wheels mounted on said shaft, a single indicating mechanism common to said plurality of unit wheels, and totalizing means whereby said unit wheels are adapted to control the increments of operation or said indicating mechanism. v

25. In a keyboard device, a counting device, said countingdevice including a constantly rotating shaft and a plurality of unit wheels mounted on said shaft, a single indicating device common to said plurality of unit wheels, and control means associated with said. counting device whereby said counting device is adapted to operate said indicating device incrementally.

26. In a keyboard device, a counting mechanism, a scale, an index member, a series of keys, means to move said index member ma single direction with respect to said scale in accordance {with the operation of said counting mechanism as determined by the key operated, and means invariably controlled by one of said keys to control the return of said index member invariably in the same direction to its normal position.

27. In a keyboard apparatus, a series of keylevers, a series of selector bars'common to said keylevers, a plurality of elements, said keylevers effective for actuating said bars for selecting certain of said elements, a space key, and a counting" mechanism controlled in accordance with the element selected for indicating respective widths of characters individual to said keylevers and justifiability of a line, including a scale, an index member, power driven means for moving said index member relatively to said scale in varying amounts dependent upon the particular element selected, and additional means operative step-bystep upon operation of the space key andadapted to cooperate with said index member to indicate the justifiability of a line.

28. In a keyboard device suitable for the production of control strips representative of consecutive characters and expansible word spacers, a series of keys, a single scale,- an index member movable variably with respect to said scale in response to the operation 01' said keys to indicate the cumulative widths of characters, means associated with said scale for mer ing the same for indicating the cumulative expansi ility of the word spacers, and a special key operative to efiect a relative change in said means tocorrespond to the increment of expansibility provided by a spacer, said last recited means and said index member cooperating to indicate the Justiflability ofa line.

29. In a keyboard device having a plurality of character keys and a justifying key,- a scale,'an indicating member cooperating with said scale, meanscontrolled by said character keys to move said indicating member, and means controlled by said justifying key to move said scale.

EDWARD E. LOUIS PO'I'I'S. 

